Plane-stress analysis of a holed membrane at finite equibiaxial stretch

Idan Z. Friedberg; Gal deBotton

doi:10.1177/10812865241270732

Plane-stress analysis of a holed membrane at finite equibiaxial stretch

Idan Z. Friedberg, Gal deBotton

Department of Mechanical Engineering

Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

An equibiaxially stretched thin neo-Hookean circular membrane with a hole at its center under plane-stress condition is analyzed within the framework of finite deformation elasticity. Initially, we introduce a novel form for the differential governing equation to the problem. This enables the introduction of a closed-form solution in the limit of infinite stretch. Comparison of this solution to corresponding finite element simulations reveals a neat agreement for stretch ratios larger than 2.5. In the practically important case of a small hole, at the circumference of the hole, the stress concentration factor is 4 and the tangential stretch ratio is twice the applied far-field stretch ratio. These values are double the corresponding ratios in the well-known limit of infinitesimal deformation.

Original language	American English
Journal	Mathematics and Mechanics of Solids
DOIs	https://doi.org/10.1177/10812865241270732
State	Accepted/In press - 1 Jan 2024

Keywords

equibiaxial stretch
finite deformation
Membrane with a hole
plane-stress
stress concentration

All Science Journal Classification (ASJC) codes

General Mathematics
General Materials Science
Mechanics of Materials

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10.1177/10812865241270732

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title = "Plane-stress analysis of a holed membrane at finite equibiaxial stretch",

abstract = "An equibiaxially stretched thin neo-Hookean circular membrane with a hole at its center under plane-stress condition is analyzed within the framework of finite deformation elasticity. Initially, we introduce a novel form for the differential governing equation to the problem. This enables the introduction of a closed-form solution in the limit of infinite stretch. Comparison of this solution to corresponding finite element simulations reveals a neat agreement for stretch ratios larger than 2.5. In the practically important case of a small hole, at the circumference of the hole, the stress concentration factor is 4 and the tangential stretch ratio is twice the applied far-field stretch ratio. These values are double the corresponding ratios in the well-known limit of infinitesimal deformation.",

keywords = "equibiaxial stretch, finite deformation, Membrane with a hole, plane-stress, stress concentration",

author = "Friedberg, {Idan Z.} and Gal deBotton",

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N2 - An equibiaxially stretched thin neo-Hookean circular membrane with a hole at its center under plane-stress condition is analyzed within the framework of finite deformation elasticity. Initially, we introduce a novel form for the differential governing equation to the problem. This enables the introduction of a closed-form solution in the limit of infinite stretch. Comparison of this solution to corresponding finite element simulations reveals a neat agreement for stretch ratios larger than 2.5. In the practically important case of a small hole, at the circumference of the hole, the stress concentration factor is 4 and the tangential stretch ratio is twice the applied far-field stretch ratio. These values are double the corresponding ratios in the well-known limit of infinitesimal deformation.

AB - An equibiaxially stretched thin neo-Hookean circular membrane with a hole at its center under plane-stress condition is analyzed within the framework of finite deformation elasticity. Initially, we introduce a novel form for the differential governing equation to the problem. This enables the introduction of a closed-form solution in the limit of infinite stretch. Comparison of this solution to corresponding finite element simulations reveals a neat agreement for stretch ratios larger than 2.5. In the practically important case of a small hole, at the circumference of the hole, the stress concentration factor is 4 and the tangential stretch ratio is twice the applied far-field stretch ratio. These values are double the corresponding ratios in the well-known limit of infinitesimal deformation.

KW - equibiaxial stretch

KW - finite deformation

KW - Membrane with a hole

KW - plane-stress

KW - stress concentration

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DO - 10.1177/10812865241270732

M3 - Article

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JO - Mathematics and Mechanics of Solids

JF - Mathematics and Mechanics of Solids

ER -

Plane-stress analysis of a holed membrane at finite equibiaxial stretch

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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